From WikiChip
Difference between revisions of "cavium/octeon/cn3005-400bg350-scp"
< cavium‎ | octeon

Line 90: Line 90:
 
}}
 
}}
 
The '''CN3005-400 SCP''' is a {{arch|64}} [[single-core]] [[MIPS]] secure communication [[microprocessor]] (SCP) designed by [[Cavium]] and introduced in early [[2006]]. This processor, which incorporates a single {{cavium|cnMIPS|l=arch}} core, operates at 400 MHz and dissipates 3 Watts. This processors includes a number of hardware security communication accelerators including units for encryption, QoS, and TCP acceleration.
 
The '''CN3005-400 SCP''' is a {{arch|64}} [[single-core]] [[MIPS]] secure communication [[microprocessor]] (SCP) designed by [[Cavium]] and introduced in early [[2006]]. This processor, which incorporates a single {{cavium|cnMIPS|l=arch}} core, operates at 400 MHz and dissipates 3 Watts. This processors includes a number of hardware security communication accelerators including units for encryption, QoS, and TCP acceleration.
 +
 +
== Cache ==
 +
{{main|cavium/microarchitectures/cnmips#Memory_Hierarchy|l1=cnMIPS § Cache}}
 +
{{cache size
 +
|l1 cache=24 KiB
 +
|l1i cache=16 KiB
 +
|l1i break=1x16 KiB
 +
|l1i desc=2-way set associative
 +
|l1d cache=8 KiB
 +
|l1d break=1x8 KiB
 +
|l1d desc=64-way set associative
 +
|l1d policy=Write-through
 +
|l2 cache=64 KiB
 +
|l2 break=1x64 KiB
 +
|l2 desc=2-way set associative
 +
}}

Revision as of 05:42, 8 December 2016

Template:mpu The CN3005-400 SCP is a 64-bit single-core MIPS secure communication microprocessor (SCP) designed by Cavium and introduced in early 2006. This processor, which incorporates a single cnMIPS core, operates at 400 MHz and dissipates 3 Watts. This processors includes a number of hardware security communication accelerators including units for encryption, QoS, and TCP acceleration.

Cache

Main article: cnMIPS § Cache

[Edit/Modify Cache Info]

hierarchy icon.svg
Cache Organization
Cache is a hardware component containing a relatively small and extremely fast memory designed to speed up the performance of a CPU by preparing ahead of time the data it needs to read from a relatively slower medium such as main memory.

The organization and amount of cache can have a large impact on the performance, power consumption, die size, and consequently cost of the IC.

Cache is specified by its size, number of sets, associativity, block size, sub-block size, and fetch and write-back policies.

Note: All units are in kibibytes and mebibytes.
L1$24 KiB
24,576 B
0.0234 MiB
L1I$16 KiB
16,384 B
0.0156 MiB
1x16 KiB2-way set associative 
L1D$8 KiB
8,192 B
0.00781 MiB
1x8 KiB64-way set associativeWrite-through

L2$64 KiB
0.0625 MiB
65,536 B
6.103516e-5 GiB
  1x64 KiB2-way set associative 
l1$ size24 KiB (24,576 B, 0.0234 MiB) +
l1d$ description64-way set associative +
l1d$ size8 KiB (8,192 B, 0.00781 MiB) +
l1i$ description2-way set associative +
l1i$ size16 KiB (16,384 B, 0.0156 MiB) +
l2$ description2-way set associative +
l2$ size0.0625 MiB (64 KiB, 65,536 B, 6.103516e-5 GiB) +